A method of storage of an e-mail includes either receiving the e-mail at a portable electronic device or sending the e-mail from the portable electronic device. The e-mail is marked for saving at the portable electronic device and transmitted by radio communication for receipt by a server and for storage of the e-mail in a backup database.

Claim:

What is claimed is:

1. A method in a portable electronic device for storing a first e-mail message received at or sent from the portable electronic device, comprising: storing the first e-mailmessage in a memory of the portable electronic device; marking the first e-mail message for saving by a processor of the portable electronic device, to avoid deletion of the first e-mail message from the memory during a memory management operation, forat least a period of time; and responsive to marking the first e-mail message for saving, transmitting at least an identification of the first e-mail message via a radio device of the portable electronic device, for receipt by a server configured tostore the first e-mail message in a backup database.

2. The method of claim 1, further comprising: responsive to transmitting an identification of the first e-mail message, receiving a request at the processor via the radio device to transmit a full copy of the first e-mail message; andtransmitting a full copy of the first e-mail message, for receipt by the server.

3. The method of claim 1, wherein marking the first e-mail message comprises receiving an input for marking the first e-mail message at the processor from an input device of the portable electronic device and, in response, setting an indicatorstored in the memory in association with the first e-mail message.

4. The method of claim 3, further comprising: receiving an input for deleting the first e-mail message at the processor from the input device, responsive to generating a list of e-mail messages marked as saved on a display of the portableelectronic device; and removing the indicator stored in association with the first e-mail message.

5. The method of claim 1, further comprising: storing a plurality of e-mail messages marked as saved in the memory, the plurality including the first e-mail message; receiving an input for initiating a restore operation at the processor froman input device of the portable electronic device; generating, at the processor, a group hash representative of the plurality of e-mail messages marked as saved; and transmitting a restore command and the group hash, via the radio device, for receiptby the server.

6. The method of claim 5, further comprising: receiving at least one backup e-mail message at the processor, via the radio device; determining if the backup e-mail message corresponds to one of the plurality of e-mail messages marked as saved; when the determination is affirmative, storing the larger of the backup e-mail message and the corresponding one of the plurality of e-mail messages in the memory, and discarding the smaller of the backup e-mail message and the corresponding e-mailmessage; and when the determination is negative: detecting if the backup e-mail message corresponds to an unmarked e-mail message stored in the memory, the unmarked e-mail message not being marked as saved; when the detection is affirmative, markingthe unmarked e-mail message as saved; and when the detection is negative, saving the backup e-mail message in the memory.

7. A portable electronic device comprising: a radio device; an input device; a memory for storing a first e-mail message received at or sent from the portable electronic device; and a processor interconnected with the radio device, the inputdevice and the memory, the processor configured to mark the first e-mail message for saving, to avoid deletion of the first e-mail message from the memory during a memory management operation, for at least a period of time; the processor furtherconfigured, responsive to marking the first e-mail message for saving, to transmit, via the radio device, at least an identification of the first e-mail message for receipt by a server configured to store the first e-mail message in a backup database.

8. The portable electronic device of claim 7, the processor further configured, responsive to transmitting an identification of the first e-mail message, to receive a request at the processor via the radio device to transmit a full copy of thefirst e-mail message; and to transmit a full copy of the first e-mail message, for receipt by the server.

9. The portable electronic device of claim 7, the processor further configured to mark the first e-mail message by receiving an input for marking the first e-mail message at the processor from the input device and, in response, setting anindicator stored in the memory in association with the first e-mail message.

10. The portable electronic device of claim 9, wherein the indicator is a bit flag on the first e-mail message.

11. The portable electronic device of claim 9, the processor further configured to receive an input for deleting the first e-mail message from the input device, responsive to generating a list of e-mail messages marked as saved on a displayinterconnected with the processor; and to remove the indicator stored in association with the first e-mail message.

12. The portable electronic device of claim 7, the memory for storing a plurality of e-mail messages marked as saved in the memory, the plurality including the first e-mail message; the processor further configured to receive an input forinitiating a restore operation at the processor from the input device; the processor further configured to generate a group hash representative of the plurality of e-mail messages marked as saved; and to transmit a restore command and the group hash,via the radio device, for receipt by the server.

13. The portable electronic device of claim 12, the processor further configured to receive at least one backup e-mail message via the radio device; the processor further configured to determine if the backup e-mail message corresponds to oneof the plurality of e-mail messages marked as saved; the processor further configured, when the determination is affirmative, to store the larger of the backup e-mail message and the corresponding one of the plurality of e-mail messages in the memory,and to discard the smaller of the backup e-mail message and the corresponding e-mail message; the processor further configured when the determination is negative, to: detect if the backup e-mail message corresponds to an unmarked e-mail stored in thememory, the unmarked e-mail message not being marked as saved; when the detection is affirmative, mark the unmarked e-mail message as saved; and when the detection is negative, save the backup e-mail message in the memory.

14. A non-transitory computer-readable medium having computer-readable code embodied therein for execution by a processor of a portable electronic device, the computer-readable code for implementing a method for storing a first e-mail messagereceived at or sent from the portable electronic device, comprising: storing the first e-mail message in a memory of the portable electronic device; marking the first e-mail message for saving by the processor, to avoid deletion of the first e-mailmessage from the memory during a memory management operation, for at least a period of time; and responsive to marking the first e-mail message for saving, transmitting at least an identification of the first e-mail message via a radio device of theportable electronic device, for receipt by a server configured to store the first e-mail message in a backup database.

15. The non-transitory computer-readable medium of claim 14, the method further comprising: responsive to transmitting an identification of the first e-mail message, receiving a request at the processor via the radio device to transmit a fullcopy of the first e-mail message; and transmitting a full copy of the first e-mail message, for receipt by the server.

16. The non-transitory computer-readable medium of claim 14, wherein marking the first e-mail message comprises receiving an input for marking the first e-mail message at the processor from an input device of the portable electronic device and,in response, setting an indicator stored in the memory in association with the first e-mail message.

17. The non-transitory computer-readable medium of claim 16, wherein the indicator is a bit flag on the first e-mail message.

18. The non-transitory computer-readable medium of claim 16, the method further comprising: receiving an input for deleting the first e-mail message at the processor from the input device, responsive to generating a list of e-mail messagesmarked as saved on a display of the portable electronic device; and removing the indicator stored in association with the first e-mail message.

19. The non-transitory computer-readable medium of claim 14, the method further comprising: storing a plurality of e-mail messages marked as saved in the memory, the plurality including the first e-mail message; receiving an input forinitiating a restore operation at the processor from an input device of the portable electronic device; generating, at the processor, a group hash representative of the plurality of e-mail messages marked as saved; and transmitting a restore commandand the group hash, via the radio device, for receipt by the server.

20. The non-transitory computer-readable medium of claim 19, the method further comprising: receiving at least one backup e-mail message at the processor, via the radio device; determining if the e-mail backup message corresponds to one of theplurality of e-mail messages marked as saved; when the determination is affirmative, storing the larger of the backup e-mail message and the corresponding one of the plurality of e-mail messages, and discarding the smaller of the backup e-mail messageand the corresponding e-mail message; and when the determination is negative: detecting if the backup e-mail message corresponds to an unmarked e-mail message stored in the memory, the unmarked e-mail message not being marked as saved; when thedetection is affirmative, marking the unmarked e-mail message as saved; and when the detection is negative, saving the backup e-mail message in the memory.

Description:

FIELD

The present application relates generally to electronic devices and to a system and method for storage of electronic mail.

BACKGROUND

Portable electronic devices such as wireless personal digital assistants (PDAs), smart telephones and laptop computers with wireless capabilities have gained widespread use for a variety of functions. Such devices are commonly used forcommunication purposes including transportation of data, and run on a wide variety of networks from data-only networks such as Mobitex and DataTAC to complex voice and data networks such as GSM/GPRS, CDMA, EDGE, UMTS and CDMA 2000 networks.

These portable electronic devices are commonly used for communication, for example, for sending and receiving electronic mail (e-mail), SMS messages (short message service, commonly referred to as text messages) and PIN messages (PersonalIdentification Number messages). For voice-enabled devices such as smart telephones for example, voice communication in the form of telephone calls can be initiated and received at the portable electronic devices.

Copies of e-mail messages sent and received are stored in a third-party database such as an Exchange.TM. database controlled by a server, for example, an Exchange.TM. server. During synchronization of a portable electronic device with acommunication system connected to the Exchange server through a connector, the status of e-mails is synchronized as well as the folder in which e-mails are filed. For example, e-mails that are opened at the portable electronic device are deemed to beopened at the database. Changes in status such as a change from unopened to opened are therefore synchronized. With the exception of synchronization of the status of e-mails on the portable electronic device, e-mails on the Exchange.TM. database arenot locally controlled by the portable electronic device.

BRIEF DESCRIPTION OF THE DRAWINGS

The system and method for communication record logging will be better understood with reference to the following description and to the Figures, in which:

FIG. 1 is a functional block diagram of a communication system and portable electronic device for storage of electronic mail in accordance with one embodiment;

FIG. 2 is a block diagram of certain components within the electronic device of FIG. 1;

FIG. 3 is a block diagram of certain components within the synchronization server of FIG. 1;

FIG. 4 is a sequence diagram illustrating functions carried out at both the portable electronic device and the communication system of FIG. 1, during storage of electronic mail according to one example;

FIG. 5 shows a menu screen of an LCD display of the electronic device of FIG. 1;

FIG. 6 shows a list of electronic mail messages screen of the LCD display of the electronic device of FIG. 1;

FIG. 7 shows a list of electronic mail messages including a submenu screen of the LCD display of the electronic device of FIG. 1;

FIG. 8 is a sequence diagram illustrating functions carried out at both the portable electronic device and the communication system of FIG. 1, during storage of electronic mail according to another example;

FIG. 9 shows a list of saved electronic mail messages including a submenu screen of the LCD display of the electronic device of FIG. 1;

FIG. 10 is a sequence diagram illustrating functions carried out at both the portable electronic device and the communication system of FIG. 1 during removal of an electronic mail message from storage according to one example; and

FIG. 11 is a sequence diagram illustrating functions carried out at both the portable electronic device and the communication system of FIG. 1 during restore of electronic mail to the portable electronic device of FIG. 1.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Reference is first made to FIG. 1, which shows a functional block diagram of a communication system indicated generally by the numeral 20 and a portable electronic device 22. The communication system 20 provides for communications with portableelectronic devices including the exemplary portable electronic device 22, as shown. The portable electronic device 22 and the communication system 20 are operable to effect communications over a radio communications channel therebetween. Dataoriginating at the portable electronic device 22 is communicated to the communication system 20 by way of the radio communications channel. Similarly, data originating at the communication system 20 is communicated from the communication system 20 tothe portable electronic device 22 by way of the radio communications channel, thereby providing data to the portable electronic device 22.

For the purpose of illustration, the communication system 20 is functionally represented in FIG. 1 and a single base station 24 is shown. The base station 24 defines a coverage area, or cell 26 within which communications between the basestation 24 and the portable electronic device 22 can be effectuated. It will be appreciated that the portable electronic device 22 is movable within the cell 26 and can be moved to coverage areas defined by other cells that are not illustrated in thepresent example. The communication system 20 includes a base station 24 that is part of a wireless network and infrastructure 28 that provides a link to the portable electronic device 22. The wireless network and infrastructure 28 includes a number ofbase stations (not shown) that provide the other cells referred to above. Data is delivered to the portable electronic device 22 via wireless transmission from the base station 24. Similarly, data is sent from the portable electronic device 22 viawireless transmission to the base station 24.

Wireless networks and infrastructures include, for example, data-centric wireless networks, voice-centric wireless networks, or dual-mode wireless networks. For the purpose of the present exemplary embodiment, the wireless network andinfrastructure 28 includes a dual-mode wireless network that supports both voice and data communications over the same physical base stations.

The communication system 20 includes a relay device 30 that is connected to the Internet 29 that is, in turn, connected to the wireless network and infrastructure 28. The relay device 30 is also connected to a server 32. It will be understoodthat the functions provided by the relay device 30 and the server 32 can be embodied in the same device. The server 32 is also connected to an administration server 34, as shown. The administration server 34 provides administrative services to andcontrol over the server 32.

The server 32 is functionally coupled to an e-mail (for example, Exchange.TM.) connector 37 for a third party database (for example, an Exchange-based database) 39. The connector 37 receives commands from the server 32. It will be understoodthat the connector 37 is a functional component and can be provided by way of an application on the server 32. Copies of e-mail messages sent from and received at the portable electronic device 22 are stored in the third-party database 39. Duringsynchronization of the third-party database 39 and the portable electronic device 22, only status changes of e-mail messages are synchronized such that the status of e-mail messages at the portable electronic device 22 match the status of the e-mailmessage copies stored at the third-party database.

The server 32 is also functionally coupled through a backup/restore connector 36 to a backup/restore database 38. Other connectors and databases can be provided, for example, for synchronization purposes. For the purpose of simplicity, suchconnectors and databases are not shown in FIG. 1. The connector 36 receives commands from the server 32. Again, it will be understood that the connector 36 is a functional component and can be provided by way of an application on the server 32. Thebackup/restore database 38 is used for storing data records, including, for example, copies of e-mail messages sent from the portable electronic device 22 and received at the portable electronic device 22.

Referring now to FIG. 2, a block diagram of certain components within the portable electronic device 22 is shown. In the present embodiment, the portable electronic device 22 is based on the computing environment and functionality of a wirelesspersonal digital assistant. It will be understood, however, that the portable electronic device 22 is not limited to a wireless personal digital assistant. Other portable electronic devices are possible, such as cellular telephones, smart telephones,and laptop computers. Referring again to the present embodiment, the portable electronic device 22 is based on a microcomputer including a processor 40 connected to a read-only memory (ROM) 42 that contains a plurality of applications including, forexample, an e-mail messaging application, a Web browser application, an address book application, a tasks application, a memo pad, a calendar application and others. The applications are executable by the processor 40 to enable the portable electronicdevice 22 to perform certain functions including, for example, e-mail message functions. The processor 40 is also connected to a random access memory (RAM) unit 44 and a persistent storage device 46 which are responsible for various non-volatile storagefunctions of the portable electronic device 22. The processor 40 receives input from various input devices including a keypad 48 and a trackwheel 49 or trackball (not shown). The processor 40 outputs to various output devices including an LCD display50 and a speaker 52. A microphone 54 and phone speaker 56 are connected to the processor 40 for cellular telephone functions. The processor 40 is also connected to an internal clock 58 and a modem and radio device 60. The modem and radio device 60 isused to connect to wireless networks using an antenna 62. The modem and radio device 60 transmits and receives voice and data communications to and from the portable electronic device 22 through the antenna 62.

The portable electronic device 22 is operable to effect two-way communication of voice and data. Thus, the portable electronic device 22 transmits and receives voice communications over the wireless network and infrastructure 28 via wirelesscommunications with the base station 24 over a radio communications channel. Similarly, the portable electronic device 22 transmits and receives data communications over the wireless network and infrastructure 28 via wireless radio communications withthe base station 24 over a radio communications channel.

Reference is now made to FIG. 3 which shows a block diagram of certain components within the server 32. Similar to the portable electronic device 22, the server 32 includes a processor 66 connected to a read-only memory (ROM) 68 that includesapplications executable by the processor 66 and enables the server 32 to perform certain functions including backing up data from the portable electronic device 22. The processor 66 is also connected to a random access memory (RAM) unit 70 and apersistent storage device 72 which are responsible for various storage functions of the server 32.

It will be understood that the functions described herein can be carried out in any suitable manner. In the present example, the functions are carried out by algorithms executable by the processor 66. For example, the processor 66 of theserver 32 is operable to receive communications generated by the portable electronic device 22 for delivery to other electronic devices. The processor 66 is operable to store e-mail messages in a backup/restore table in a backup/restore database and todelete the e-mail messages from the backup database.

The portable electronic device 22 is operable to send and receive a variety of different communication types including e-mail messages from other portable electronic devices (not shown) connected to the wireless network and infrastructure 28.

It will be appreciated that the portable electronic device 22 and server 32 are operable to carry out many other functions, some of which are described below.

Reference is now made to FIG. 4, which shows a sequence diagram illustrating functions carried out at both the portable electronic device 22 and the communication system 20 for storage of electronic mail according to one example of an embodimentof the present application. Coding of software for carrying out the steps illustrated is well within the scope of a person of ordinary skill in the art. In the present example, an e-mail message is received at the portable electronic device 22, fromanother electronic device. The e-mail message is composed and sent from the other electronic device (not shown) connected through the internet 29 and the relay 30 to the server 32. The e-mail message is received at the server 32 at step 100. A copy ofthe e-mail message is forwarded and stored in the Exchange.TM. database 39, as will be understood by those skilled in the art. A copy of the e-mail message is also processed by the server 32 for transmission to the portable electronic device 22 androuted from the server 32, through the relay 30, the Internet 29 and the wireless network and infrastructure 28, to the base station 24 for transmission via a radio communication channel to the portable electronic device 22 at step 102. It will beappreciated that the e-mail message is forwarded to the base station 24 covering the cell in which the portable electronic 22 device is located.

The e-mail message is received at the portable electronic device 22 at step 104. In the present example, the portable electronic device emits a notification such as an e-mail-specific ring tone through the speaker 52, thereby notifying the userof receipt of an e-mail message at the portable electronic device 22. Referring to FIG. 5, there is shown an exemplary menu screen that is displayed on the LCD display 50 of the portable electronic device 22. The exemplary menu screen includes adisplay clock that is updated according to the internal clock 58, and applications including an e-mail Messaging application, a Web browser, an Address book, a Tasks application, a Memo application and a Calendar. The user views the e-mail message byscrolling through the applications using the trackwheel 49 or a trackball and pressing inwardly on the trackwheel 49 or trackball to select the e-mail messaging application. Selection of the e-mail messaging application causes execution of the e-mailmessaging application and a list of e-mail messages is displayed, including previously sent and received, opened and unopened e-mail messages that remain on the portable electronic device, as shown in the exemplary messaging applications screen of FIG.6.

Upon selection of an unopened e-mail message from the menu list screen, a submenu is displayed on the LCD display 50, displaying different options for user selection, including, for example, Open, Mark Opened, Save, Reply, Forward, Delete,Compose, View Saved Messages and Close. Referring, for exemplary purposes, to selection of the e-mail received at step 104, the selection of this e-mail gives rise to the submenu options Open, File, Mark Opened, Save, Reply, Forward, Delete, Compose,and Close, as shown in FIG. 7. Many of these options will be understood by those skilled in the art. For example, selection of the Open option opens the e-mail for viewing on the LCD display 50. Selection of the Mark Opened option marks the e-mail asopened on the list of e-mail messages screen of FIG. 6 and closes the submenu shown in FIG. 7, returning to the list of e-mail messages. Selection of the Reply option initiates a new reply e-mail composition that is automatically addressed to the senderof the selected e-mail and includes the same subject line in the e-mail header. Selection of the Forward option initiates a new forward e-mail composition that incorporates in the new subject line the e-mail header of the selected e-mail. Selection ofthe Delete option deletes the e-mail from the list of e-mail messages screen. Selection of the Compose option initiates a new e-mail composition. Selection of the Close option closes the e-mail application and returns control to the menu screen shownin FIG. 5. It will be appreciated that if an e-mail message marked as opened is selected, the Open and Mark Opened options are not provided in the submenu shown in FIG. 7. Instead, a Mark Closed option is provided.

Selection of the Save option from the submenu options shown in FIG. 7 marks the selected message as saved by changing an indicator, such as a bit flag, on the e-mail such that during scheduled clean-up and memory management options, the e-mailmarked as saved remains on the portable electronic device 22. Those e-mails not marked as saved are subject to deletion during clean-up and memory management operations. Such clean-up operations can be regularly carried out, for example, based on ageof unmarked e-mail messages, based on the number of e-mail messages or size of e-mail messages in an "inbox" in the portable electronic device 22, or during low-memory conditions at the portable electronic device 22. Thus, an e-mail that is more than 60days old, for example, and that is not marked as saved, is deleted from the portable electronic device 22. The corresponding copy of the e-mail message stored in the Exchange.TM. database 39 is not deleted when the e-mail is deleted from the portableelectronic device 22. It will be understood, however, that no further status updates are sent from the server to the portable electronic device 22. In this case the server is notified of the deletion on the portable electronic device 22 and thereforeno further updates are sent for a deleted message.

Referring again to FIG. 4, the e-mail message received at step 104 is marked as saved at step 106 by user selection of the e-mail messaging application from the menu screen, followed by user selection of the e-mail message from the list ofe-mail messages and user-selection of the Save option in the submenu, as described above. Upon selection of the Save option, the e-mail is marked as saved as described above and a copy of the saved e-mail is transmitted over a radio communicationchannel from the portable electronic device 22 for delivery to the server 32 at step 108.

The e-mail message is received at the base station 24 at step 110 and forwarded through the wireless network and infrastructure 28, the internet 29 and the relay 30 to the server 32 of the communication system 20. The copy of the e-mail messageis then stored by the server, in the backup/restore database 38 via the backup/restore connector 36. The copy of the e-mail message is stored in a backup/restore table on the backup/restore database 38. This is accomplished by first retrieving thebackup/restore table from the backup/restore database 38 at step 112. The table includes e-mail message data including the fields from the e-mail identified by length and unique tag numbers. Such fields include, for example information regarding thesender (e-mail source), the recipient, the length of the e-mail message, a time stamp, the body of the message, a unique numeric e-mail identifier and others. The server adds the information in the form of contiguous binary data to the backup/restoretable at step 114 and stores the table in the backup/restore database at step 116.

Although the backup/restore table stored in the backup/restore database 38 is not accessible to the user of the portable electronic device 22, the backup/restore database 38 is used to restore data to the portable electronic device 22 in theevent of loss of data at the portable electronic device 22. Thus, in the event of memory loss at the portable electronic device 22, a synchronization session is invoked and the data stored in the backup/restore database 38 is restored on the portableelectronic device 22, thereby restoring all e-mail records previously marked as saved by the user.

Reference is now made to FIG. 8, which shows a sequence diagram illustrating functions carried out at both the portable electronic device 22 and the communication system 20 for storage of electronic mail according to another example of anembodiment. Coding of software for carrying out the steps illustrated is well within the scope of a person of ordinary skill in the art. In the present example, an e-mail message is composed by the user of the portable electronic device 22 and sent toanother electronic device. In order to send an e-mail message using the portable electronic device 22, the e-mail messaging application is selected from the menu screen shown in FIG. 5, using the trackwheel 49, as described above with reference to thefirst-described exemplary embodiment. For the purpose of the present example, the compose e-mail option is chosen from the submenu screen shown in FIG. 7 after selection of one of the e-mail messages in the list of e-mail messages. The e-mail is thencomposed using the keypad 48 (step 120). The destination e-mail address is entered and the message is sent by selection of a send command from another submenu, using the trackwheel 49. The e-mail message is then sent via a radio communications channelto the base station 24 (for the cell in which the portable electronic device 22 is located) for delivery to the server 32, at step 122. Upon sending the e-mail from the portable electronic device 22, a copy of the e-mail message is maintained at theportable electronic device 22 and is displayed in the list of e-mail messages described with reference to FIG. 6 (step 124).

Referring again to FIG. 8, the e-mail message is received at the base station 24 and forwarded through the wireless network and infrastructure 28, the internet 29, and the relay 30, to the server 32 of the communication system 20 at step 126. Acopy of the e-mail message is processed by the server 32 and forwarded and stored in the Exchange.TM. database and the message is routed through the internet 29 for delivery to the destination electronic device at step 128.

In the present example, the e-mail message that is maintained at the portable electronic device 22 is marked as saved at step 130 by user selection of the e-mail message from the list of e-mail messages and user-selection of the Save option inthe submenu, as described above. Upon selection of the Save option, the e-mail is marked as saved as described above and a copy of the saved e-mail is transmitted over a radio communication channel from the portable electronic device 22 for delivery tothe server 32 at step 132.

The copy of the e-mail message is received at the base station 24 and forwarded through the wireless network and infrastructure 28, the Internet 29 and the relay 30 to the server 32 of the communication system 20, at step 134. Upon receipt ofthe copy of the e-mail message at the server 32, the backup/restore table is retrieved from the backup/restore database 38 at step 136. Again, the server 32 extracts e-mail information from individual fields of the copy of the e-mail message, adds theinformation to the backup/restore table at step 138 and stores the table in the backup/restore database at step 140.

It will be appreciated that selection of the Save option from the submenu options shown in FIG. 7 marks the sent message as saved such that during scheduled clean-up and memory management options, the e-mail marked as saved remains on theportable electronic device 22. Further, in the event of memory loss at the portable electronic device 22, a synchronization session can be invoked to restore the data stored in the backup/restore database 38 to the portable electronic device 22, therebyrestoring all e-mail records previously marked as saved by the user.

Selection of the View Saved Messages option from the submenu of FIG. 7 results in a list of e-mail messages marked as saved at the portable electronic device 22. Thus, only those e-mail messages marked as saved are displayed.

Upon selection of a saved message from the list of e-mail messages marked as saved at the portable electronic device 22, a saved messages submenu is displayed on the LCD display 50, displaying different options for user selection, including, forexample, Open, Mark Opened, Reply, Forward, Delete, Compose, and Close. Referring, for exemplary purposes, to selection of the e-mail marked as saved in the embodiment described above with reference to FIG. 4, the selection of this e-mail gives rise tothe saved messages submenu options, as shown in FIG. 9. Again, many of these options will be understood by those skilled in the art and are described above. It will also be appreciated that if an e-mail message marked as opened is selected, the Openand Mark Opened options are not provided. Instead, a Mark Closed option is provided. In the present example, selection of the Delete option removes the saved message mark by changing a bit flag on the e-mail message, resulting in removal of the savedmessage from the list of e-mail messages marked as saved at the portable electronic device 22. The e-mail message is still displayed in the list of e-mail messages described above and shown in FIG. 6, however.

Selection of the Delete option from the saved messages submenu for the selected e-mail message marked as saved at the portable electronic device 22 also results in deletion of the e-mail message information stored in the backup/restore table ofthe backup/restore database. Referring now to FIG. 10, a sequence diagram is shown which illustrates functions carried out at both the portable electronic device 22 and the communication system 20 during deletion of e-mail from the backup/restoredatabase according to one aspect of an embodiment. Coding of software for carrying out the steps illustrated is well within the scope of a person of ordinary skill in the art. The e-mail message saved, for example, at step 106 is then deleted from thesaved messages by user selection of the Delete option from the submenu of FIG. 9. As described, the e-mail message is deleted from the saved messages, changing the bit flag on the e-mail message and resulting in removal of the saved message from thelist of e-mail messages marked as saved at the portable electronic device 22. Upon selection of the Delete option, a delete message command is also transmitted over a radio communication channel from the portable electronic device 22 for delivery to theserver 32 at step 152.

The delete message command is received at the base station 24 and forwarded through the wireless network and infrastructure 28, the internet 29 and the relay 30 to the server 32 of the communication system 20, at step 154. The copy of thee-mail message previously stored by the server 32 in the backup/restore database 38 via the backup/restore connector 36 is then deleted from the backup/restore table. To delete the copy of the e-mail message, the backup/restore table is retrieved fromthe backup/restore database 38 at step 156. The server 32 deletes the information related to the e-mail selected for deletion in the saved messages, from the backup/restore table at step 158 and stores the table in the backup/restore database at step160.

With the e-mail message no longer marked as saved (deleted from the saved messages menu), the e-mail message still exists on the portable electronic device 22 and is displayed in the list of e-mail messages described above with reference to FIG.6, until the e-mail message is deleted from the list of e-mail messages by selection of the Delete option from the submenu described with reference to FIG. 7, or until the e-mail is deleted during a clean-up or memory management operation.

In the example described above with reference to FIG. 10, the e-mail message is removed from the saved messages prior to deletion of the e-mail message from the list of e-mail messages shown and described with reference to FIG. 6. The e-mailmessage can be deleted from the list of e-mail messages by selection of the Delete option from the submenu of FIG. 7, while still retaining the message in the saved messages list. In this case, a copy of the e-mail message is saved in a collection ofe-mail messages for which the parent e-mail message has been deleted. Therefore, the e-mail message is not displayed in the list of e-mail messages of FIG. 7. When the user selects the View Saved Messages option of FIG. 7, however, the saved messageslist includes two collections of saved messages, including all those messages that are still present in the list of e-mail messages of FIG. 6 that have been marked as saved, and all those messages saved in the collection of e-mail messages that have beenmarked as saved and for which the parent e-mail message has been deleted.

For those e-mail messages that are saved in the collection of e-mail messages that have been marked as saved and for which the parent e-mail message has been deleted, the message does not appear in the list of e-mail messages of FIG. 6. In thiscase, selection of the Delete option in the saved messages submenu of FIG. 9 does not simply result in changing the bit flag on the e-mail message. Instead, selection of the Delete option results in deletion of the e-mail from the portable electronicdevice.

Reference is made to FIG. 11 to describe a restore operation to restore saved messages to the portable electronic device 22. Coding of software for carrying out such steps is well within the scope of a person of ordinary skill in the art. Theportable electronic device 22 receives a restore trigger at step 170, by, for example, selection of a restore option on the LCD display device 50. It will be understood that such a restore operation is selected, for example, in the event that data islost from the portable electronic device 22. In response to receipt of the restore trigger, the processor 40 retrieves any e-mail message records from the folder of the database on which the saved e-mail records are stored in the portable electronicdevice 22, at step 172. The processor 40 generates a record hash for each e-mail message marked as saved at the portable electronic device 22 and then generates a group hash for the folder, based on the individual record hashes at step 174. Next, aninitialize command is transmitted along with the group hash, from the portable electronic device 22 to the communication system 20 over a radio communication channel, at step 176. The initialize command initiates the restore process at the server 32,identifies the e-mail backup/restore database 38 for restoring and provides session state information including a session state identifier. The portable electronic device 22 then awaits a response from the communication system 20.

The communication system 20 receives the initialize command along with the group hash at step 178 by receipt at the base station 24. The base station 24 forwards the initialize command and the group hash to the server 32. As indicated above,the initialize command identifies the database for restore and provides session state information including the session state identifier. A session is thereby started with the portable electronic device 22. In response to receipt of the initializecommand, the server 32 retrieves the backup/restore table stored in the backup/restore database 38 via the backup/restore connector at step 180. Next, the processor 66 of the server 32 generates record hashes, each record hash being generated from thefields of the individual e-mail records saved in the backup/restore table of the backup/restore database 38. From the record hashes, a group hash, referred to herein as the locally generated group hash, is generated at step 182. After generation of thelocally generated group hash, the hash information of the group hash received from the portable electronic device 22 is compared with the hash information of the corresponding locally generated group hash at step 184. If the comparison of the hashinformation indicates that the saved e-mail records stored in the database 40 on the portable electronic device 22 are not in mismatch with the corresponding e-mail records stored in the backup/restore table on the backup/restore database 38, then aresponse is sent to the portable electronic device 22 to terminate the backup/restore session at step 186.

The response is received at the portable electronic device 22 at step 188 and the backup/restore session is terminated at step 190.

If, on the other hand, the comparison of the hash information indicates that the e-mail message records are in mismatch, then a request for additional hash information is generated by the server 32 at step 192. The request for additional hashinformation is a request for hash information associated with the individual e-mail message records. The additional hash information is requested for each e-mail record of the e-mail messages marked as saved at the portable electronic device 22. Aftergeneration of the request for additional hash information, the request is then transmitted to the portable electronic device 22 at step 194.

Once the request for additional hash information is received at the portable electronic device 22 at step 196, each record hash generated at step 174 is transmitted to the communication system 20 over the radio communication channel at step 198.

The additional hash information is received at the communication system 20 and delivered to the server 32 at step 200. In response to receipt of the requested additional hash information, each hash generated for each of the saved e-mail messagerecords at step 174 is compared with a corresponding one of the locally generated hashes generated at step 182 (step 202) and a determination is made as to which of the saved e-mail message records, requires restoring. Thus, e-mail message records thatare not present in the saved messages list on the portable electronic device 22 but are present in the backup/restore table and e-mail message records in the backup/restore table that differ from those records at the portable electronic device 22 aretransmitted to the portable electronic device 22 at step 204. These e-mail message records are received at the portable electronic device 22 at step 206 and at step 208, the processor 40 of the portable electronic device 22 determines for each e-mailmessage record received, whether or not the e-mail message record exists in the saved messages list. If the e-mail message record does not exist in the saved messages list, the processor 40 of the portable electronic device 22 determines at step 210whether or not the e-mail message record exists in the list of e-mail messages (shown in FIG. 6). If the e-mail message record does not exist in the list of e-mail messages, the e-mail message is saved in the collection of e-mail messages marked assaved for which the parent e-mail message has been deleted (step 212), thereby restoring the e-mail message to the portable electronic device 22. If, on the other hand, the e-mail message record does exist in the list of e-mail messages, the e-mailmessage is marked as saved by changing the bit flag on the e-mail as referred to above (step 214). Thus, the e-mail message is again marked as saved at the portable electronic device 22.

If at step 208, it is determined that the e-mail message record does exist in the saved messages list, the e-mail record present in the backup/restore table is compared to the e-mail message record at the portable electronic device 22. If thesize of the e-mail message record is greater at the backup/restore table than that at the portable electronic device 22, the processor proceeds to step 212 and saves the e-mail message in the collection of e-mail messages marked as saved for which theparent e-mail message has been deleted. If, on the other hand, the size of the e-mail message record is greater at the portable electronic device 22 than that at the backup/restore table, then the e-mail message record is transmitted from the portableelectronic device 22 for delivery to the server 32 for overwriting to update the backup/restore table at step 218. The e-mail message record is received at the server 32 at step 220 and the backup/restore table is updated at step 222. It will beappreciated that the size of the e-mail message at the portable electronic device 22 can be larger than the size of the e-mail message at the backup/restore table as a result of only portions of messages being transmitted to the portable electronicdevice 22 to reduce data transmission and reduce the memory required for storage of the messages. Thus, only a first portion of a large message is transmitted until the user requests more of the message. After the user requests more of the message,further message content is transmitted. When only a portion of the e-mail is received and the e-mail message is saved at step 106 of FIG. 4, for example, the portion that is received is transmitted at step 108 to the server 32 and stored at thebackup/restore table. If the user later requests more of the message at the portable electronic device 22, further message content is transmitted to the portable electronic device 22 and the message at the portable electronic device 22 is larger thanthe message at the backup/restore table.

While the embodiments described herein are directed to particular implementations of the system and method for storage of electronic mail, it will be understood that modifications and variations to these embodiments are possible. For example,the time period for which a saved message is stored in the backup/restore database or in the portable electronic device can be limited. Also, e-mail messages can be separated into separate tables at the backup/restore database based, for example, on thefolder that the e-mail occupies on the portable electronic device. Thus, e-mails from different folders on the portable electronic device are stored in different tables at the backup/restore database. E-mail messages can also be separated into separatetables at the backup/restore database based on the service from which the e-mail is forwarded to the portable electronic device. Thus e-mail messages originally addressed to two different e-mail addresses that are forwarded to the same portableelectronic device are saved in two separate tables at the backup/restore database.

In the embodiments described above, the portable electronic device transmits the saved e-mail messages to the communication system for storage by the server in the backup/restore database. It is contemplated, however, that a uniqueidentification of the e-mail message can be transmitted so that, upon receipt by the server, the server retrieves the e-mail message from the Exchange.TM. database 39. If, however, the e-mail message cannot be retrieved, the server then requeststransmission of the e-mail message from the portable electronic device. Advantageously, this reduces the amount of data transmitted wirelessly. Also, rather than the portable electronic device performing the size comparison of e-mail messages asdescribed in relation to step 216, the portable electronic device can transmit a size of the e-mail message record when the record hash is transmitted for delivery to the server. Thus, the size comparison is carried out by the server and the e-mailmessage is not transmitted to the portable electronic device until it is determined that the message is to be transmitted for storage at the portable electronic device.

It will be appreciated that the components of the portable electronic device are shown in FIG. 2 for exemplary purposes only. Other portable electronic device components are possible. For example, rather than a trackwheel 49, as shown in FIG.2 and referred to in the above description, the portable electronic device 22 can include a trackball. The trackball can be depressed as a means to provide additional user-input. The microprocessor 40 receives input from the trackball which is used foruser selection of features from a list or a table on the LCD display 50 of the portable electronic device 22. Selection is carried out by rolling the trackball to roll a cursor (or highlighted region), for example, to the desired selection and pressinginwardly on the trackball. The portable electronic device 22 also includes other features, such as a battery, that are not shown.

According to one aspect, there is provided a method of storage of an e-mail that includes either receiving the e-mail at a portable electronic device or sending the e-mail from the portable electronic device. The e-mail is marked for saving atthe portable electronic device and transmitted by radio communication for receipt by a server and for storage of the e-mail in a backup database.

According to another aspect, there is provided a portable electronic device that includes a receiver and transmitter for receiving and transmitting an e-mail; a display for displaying the e-mail; a user input for marking the e-mail for storage;a memory for storage of the e-mail; and a processor coupled to the receiver, the display, the user input and the memory. The processor causes the transmitter to transmit the e-mail by radio communication for receipt by a server and storage of the e-mailin a backup database, in response to the e-mail being marked for storage.

According to another aspect, there is provided a computer-readable medium having computer-readable code embodied therein, for execution by a processor, for receiving an e-mail at a portable electronic device or sending the e-mail from theportable electronic device, marking the e-mail for saving, at the portable electronic device, and transmitting the e-mail by radio communication for receipt by a sever and for storage of the e-mail in a backup database.

Advantageously, electronic mail messages stored at a portable electronic device can be saved such that saved e-mail messages are not subject to memory management operations or clean-up operations. Thus, these e-mail messages are retained inmemory at the portable electronic device. The e-mail messages are also backed up in a backup/restore database so that the saved e-mail messages can be restored to the portable electronic device if ever they are lost from the device memory.

Many modifications and variations may occur to those skilled in the art. All such modifications and variations are believed to be within the sphere and scope of the present application.